Combustible gas alarm and control



VM. G. JACOBSON COMBUSTIBLE GAS ALARM AND CONTROL Od, 29,I 1940.

3 Sheets-Sheet 1 Filed Aug. e, 195s /T-rwk., v* Ll@ ATTORNEYS'.

Oct. 29, 1940. I I M, Q MCXQBSQN 2,219,391

- COMBUSTIBLE GAS ALARM AND CONTROL Filed Aug. 6, 19556k 3 Sheets-Sheet 2 2 To PowER 1 Jol/RCC mmaswlrcn. 5

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809 T 30E-"mn"- COTACTS 0F RESET RELAYS.

GAL VANOME T [R6 0F RISE T REL AYS INVENTOR. Moses G. JAcoBsoN.

` BY d? 476 ArToRNfY.

Oct. 29, 1940- M. G. JAcoBsoN COMBUSTIBLE GAS ALARM ND CONTROL I Filed Aug. 6, 1936 3 Sheets-Sheet 3 IVENTOR.

L; ATTORNEYS.

W/TNSJEJ www Patented oa. 29, 1c4o AUNITI-:D STATES PATENT oFFlcE Moses G. Jacobson, Swissvale, Pa., assigner to Mine Safety Appliances Company, Pittsburgh,

Pa., a corporation oi.' Pennsylvania Application .August A6, 1936, Serial No. 94,632

2 Claims. (Cl. 177-311) This invention relates. to apparatus forv conlength of time without attention introduces initself an explosive hazard. This is particularly true of apparatus using electrical contact-making devices as, for example, relays for starting the alarm inasmuch as the sparks of the electric contacts are a source of explosion. Further, in

direct currentapparatus sparks on bells, motor commutators and the like are an additional source of danger. Y

Moreover, known apparatus has been relatively expensive in initial and up-keep costs largely due tothe necessity for repeated inspection and adjustment and because the gas-analyzing instrumentalitis required frequent replace- 25 ment of parts such as the electric laments employed for igniting the gas sample. This has rendered the use of alarm devices of the character indicated substantially impossible in private homes or small( businesses employing g'as or oils for heating and cooking. Constant attention to and resetting of the apparatus were required, particularly if the apparatus functioned periodically to indicate a dangerous gaseous state, and thus the requirement for frequent visits by service men rendered the use of appa-I vratus prohibitive except in large shops or mines. It is a general object of my invention to avoid and overcome' the foregoing and other diiculties of known apparatus for indicating a concentra- 40 tion cfa combustible gasor vapor in air by the provision of improved apparatus of eiiicient and automatic character which is adapted to operate over long periods in an explosive atmosphere substantially without attention.

Another object of my invention is to provide combustible gas alarm and control apparatus adapted to indicate the combustible gas content of, for example, air drawn from a plurality of dinerent sources.

A further object oi.' my invention is to provide f an electric alarm and controller of the character indicated having a sensitive electrical unit which f doesnot have to -be renewed oftener than twice a year even though the apparatus functions con.- tinuously.

Still another object of my invention is the provision of automatic or semi-automatic'mechanism for resetting galvanometer or other relays incorporated in the apparatus.

'I'he foregoing and other objects 'of my inven- 5 tion are achieved by apparatus including a vapor or explosion-proof case, a pump in the case with means for connecting the pump to any of a'. plurality of sources of gas so that gas is drawn through a flow system inthe case and expelled 10 to a safe gas-exhausting atmosphere. Incorporated in the apparatus and mounted in the case is an electrical Wheatstone bridge including a pair of electric iilaments with means controllable outside lthe case forl balancing-the Wheatstone 15 bridge. The gas is conducted bythe pump and flow system aroundat leastl one of the electric laments to burnany combustible material in the gas and thereby heat the filament and unbalance the Wheatstone bridge. The unbalanc- 20 ing of lthe'Wheatstone bridge operates a galvanometer relay which is reset by automatic means or by hand means operable from outside the case. Electrically connected with the .galvanometer realy are means for visibly or audibly 25 indicating the combustible gas content as being l undesirable. The indicating means may include a relay operating a ventilator motor, gas valve, siren or other mechanism as will be understood.

. Further incorporated in the apparatus are 3@ flasher or blinker means for-periodically supplying electric current to the Wheatstone bridge and the included electric filaments. Bymerely supplying electric current tothe 'Wheatstone bridge for a period of say five to ten seconds 35 out of every minute the life of the electric filaments is considerably prolonged. I'also include in my combination a vapor or explosion-proof cover removably secured to the case with means operable upon opening Vof the cover to break all 40 flow of electric current to the case. I likewise; often include power means for continually rotating the multiplevalve inlet to the case so' that different portions .of gas from a plurality of gas sources and also/from a source of pure air are 45 d'rawnthrough the apparatus. f

Referring to the'accompanying drawings, Fig. 1 illustrates a horizontal cross-sectional view through a typical embodiment of my invention' with the various parts contained in the case, be- 50 ing illustratfed diagrammatically for the purpose of clearness; Fig. 2 is an electric Wiring diagram of the apparatus shown in Fig.1; Fig. 3 is an electric wiring diagram of a modified form of my invention; and Fig. 4 is a side elevation partly in 55.

section of one embodiment of resetting mechanism for the galvanometer relay'incorporated in the apparatus.

In the embodiment of my invention illustrated diagrammatically in Fig. 1 and electrically connected in Fig. 2, the numeral I indicates a case of light, strong metal such as cast aluminum which -I term a vapor-proof case. The case is vapor-proof because it is rendered absolutely airtight so that the various mechanisms positioned inside of the case can operate in a manner hereinafter more fully described without causing any danger of an explosion if the apparatus is employed in a gaseous medium of explosive nature.

Specically the case I0 is generally rectangular in shape and is provided with a removable cover I2 which is secured to the case proper by bolts I4 with an interposed gasket I5 rendering the connection between the case and its cover completely air-tight. In certain instances it may be advisable to dispense with the gasket and employ ground and polished metal meeting faces between the case I0 and cover I2 in accordance with re underwriters requirements on this type of equipment. This type of case in the trade is termed an explosion-proof case. The cover is formed with a gas-tight and/or explosion-proof window I6 so that certain indicating means positioned within the case can be observed. Hinged as at I8 in the front of the case I0 and spaced in substantially parallel relation to the cover I2 is a panel 20 which carries certain of the instrumentalties incorporated in the case.

While my apparatus is, of course, capable of testing the combustible gas content of any particular gas source, it is specifically adapted `to continuously test gas from a plurality of sources. To this end, on one end of the case I0 I mount a multiple valve 26 which includes any number of conduits 28, 30 and 32 extending to individual and particular gas sources which may be at rather widely separated distances from each other. Extending from the multiple valve 26 is a conduit 34 which is' passed into the case Il)v in gas-tight relation therewith and which is adapted to be,

connected to any one of the conduits 28, 3U, and 32 dependent upon the position of the multiple valve 26.

In employing the multiple valve 26 with the apparatus of my invention I have found it advisable to connect at least one of the conduits 28, 30, or 32 with a source of pure air so that adjusting of the apparatus to a zero position is facilitated. Furthermore, I preferably provide a by-pass between the pure air conduit and the conduit 34 whereby a desired amount of pure air can be led into the gas sample which is necessary in certain instances where there is a deciency of oxygen in the sample which prevents the combustible matter therein from burning in the detector unit 56. Specifically illustrating this feature of my invention, I have illustrated a by-pass conduit 28a between the conduit 28 and the conduit 34 with an adjustable valve 29 controlling the flow of pure air from the conduit 28 to the conduit 34 and thereby mixing any desired portion of 4air with a sample of gas drawn through yconduit 30 or 32. In some cases of industrial conthus prolong the life of the platinum de-` 'Ihe position of the multiple valve 26 can be controlled by hand but I preferably provide a motor 36 operating through a reduction gear box 38 to drive shaft 40 of the multiple valve whereby the conduit 34 extending to the inside of case I0 is connected for any desired period such as one'- quarter to two minutes wtih the conduits 28, 36, and 32 in turn. The particular gas source to which the conduit 34 is connected through multiple valve 26 is indicated by suitable means positioned on the panel 20 in 'front of window I6. Preferably I provide a contact drum 42 upon the shaft 4U operating the multiple valve 26 which operates switches 43 connected as shown in Fig. 2

to a plurality of lights 44 so that the position of the valve 26 and the gas source is indicated at all times by the source indicator 44 which, as stated, is positioned directly behind the window I6.

'I'he conduit 34 extending into the case I0 is connected to a flow system that might be termed a gaseous Wheatstone bridge including two branches 50 and 52 connected by a bridge stream 54 carrying a detector unit 56 of a type illustrated in my Patent No. 2,010,995, granted August 13, 1935. This flow system is described in detail and claimed in my co-pending application Serial No. 58,683 of January 15, 1936. 4On both sides of the detector units suitable flashback arresters 55 are inserted. I preferably provide an orifice 58 in one of the branches 50 or 52, as, for example, branch 50, as illustrated in the drawings, so

that during flow of combustible gas through the gaseous Wheatstone bridge a certain flow of gas through the detector unit 56 occurs. 'I'he exact amount of flow is determined by the size of the orifice 58 which may be made adjustable. A

v pump 60 driven b'y motor 6I is connected to the :gaseous Wheatstone bridge by a conduit 62 and Aor is inactive to ignite the combustible gas, whereas the combustible gas being tested is constantly circulated through the detector unit and burnt as Will be understood. Resistances 68 and 10 to'- gether with a potentiometer rheostat 12 complete the Wheatstone bridge. The potentiometer rheostat l2 is mounted on the panel 20 andis operable from outside of the casing I0 by means of a knob shaft 14 `which is provided with a finger 16 removably engaging an arm 11 on the end of the potentiometer rheostat shaft. By this construction the cover I2 of the case I0 can be removed or replaced without interfering with the connection whereby the potentiometer rheostat can be operated from outside of the case. The potentiometer rheostat, of course, balances the Wheatstone bridge as will be understood by those skilled in the art.

Electrically connected across the Wheatstone bridge and adapted to indicate any unbalancing of the bridge is a reset galvanometer relay III which may be of any known type as, for example, that sold under the trade-name "Weston Sensitrol. The galvanometer relay may be of the single type for indicating solely an over-concentration of combustible gas, but in the embodiment of the invention illustrated in Figs. 1 and 2 -mfi described-the gestemd is' drawn from any I employ a dual or double galvanometer relay .ordinarily in the form oi two single-acting galvanometer relays with one adapted to respond to an over-concentration and the other an underconcentration of combustible material in the gas' tested.

' indicated as a whole by the numeral 88 in Fig. 1, l include oppositely acting galvanometers 80a andA As seen in Fig. 2, the reset galvanometer relays,

88h connected across the Wheatstone bridge. The galvanometers, dependent of course upon whether the combustiblevgas content of the gas tested is too high or too low, operate associated switches.

8lc and 88d which are electrically connected as -bodiment oi the invention illustrated the relay 84 is electrically connected to .thegalvanometer relay as illustrated in Fig. 2 and functions to light a green light 86 mounted on the panel 20 behind the window I6 of the cover I2. This, of

' course, indicates to the operator that the com-'- bustible gas content ofthe gas tested is below a certain minimum. In addition to operating thelight 86 a bell or other alarm device 88l producing audible signals may likewise be energized, Furthermore, I contemplate operating a relay 90 which can be adapted to'control the flow of electric current to a Ventilating motor, or to a motoroperated or electrically controlled means to increase the fuel or air supply, or to means functhe relay as controlling the operation of a motr tioning to shut down a furnace', close a gas line, etc. n In order to simplify the wiring diagram the relay 90 has been indicated as merely operating a motor 92 which is adapted to perform any of the functions stated or any desired function ordinarily eiecting a correction of the deficiency indicated.

Ii the combustible gas content of the gas source tested becomes dangerously high, the gas ignited in the detector unit 56 unbalances the Wheat-1 stone bridge in theopposite electrical direction to cause galvanometer h to close switch 88d which is electrically connected through a relay 9B, as shownin Fig. 2, to provide an audible or visible signal, vor both. Specifically, a red light QS mounted on the panel 20 behind the Window i6 of the cover 26 may be operated-and a bell or other audible alarm means 98 may be electrically connected as shown in Fig. 2 to be operated. I further contemplate the provision of a relay |00 Ywhich controls the flow of current to a Ventilating fan, means for closing or opening a gas line, furnace or the like, so that any desiredv corrective means can be started or gas-producing means stopped'automatically. In Fig. 2 I have shown |82 in order to simplify the representation oi 'this phase of my invention. It should be understood that the motors 92 and |02 and the bells 88 and 98 are positioned outside of the case I0 of my apparatus but that the relays 90 and |00 are ordinarily positioned within the case as shown in Fig. 1. However, the relays 90 and |00 and any other parts' of the apparatus may be grouped together in Va second vapor or explosion-prooi' case as will 'be understood.

Since in the form of the invention illustrated one of a plurality of sources, it may be advisable to adapt the apparatus to energize electrical means, such as means 92 and |02, at more 'than.

one point dependent upon the source of the gas tested. To this end relays operable by the position lof the valve, to connect the control mech'- anism with the electrical means associated with the particular gas source may be incorporated in' the apparatus. For the purpose of clearness only two such additional relays |88 and |04 have been illustrated in the wiring diagram, it being understood, however, that each of the switches 43 may be connected to relays oi' the sameA type whereby the position ofthe drum '42 controlsthe operation of a particular set of relays connecting particular electrical means, such as means 82 and |02, with the relays 90 and Illilof. the control mechanism.

When the galvanometei` relays are not unbal' anced by either too high or too low a ilow of combustible gas, I provide means for indicating this ,condition of the apparatus which preferably includes a clear bulbv |06 electrically connected to the galvanometer relays as shown in Fig. 2'. The bulb |66 is ordinarily mounted upon the panel 20 behind the window I6 of the cover i2 so that it can be readily observed by the operator. AHowever, this light or any of the other signal lights may be positioned .at some distance from the apparatus, for instance, inra superintendent's ofiice or on a switchboard. A relay |01 may be connected in parallel with the bulb |06 to perform any -desired operation while the gas concentration is normal and the bulb |06 is lit, and to stop this operation and to start another operation when the concentration becomes abnormal and the bulb |06 is extinguished.

Completing the description of the apparatus illustrated in Figs. l and 2, the numeral. H0 indicates a combined transformer and rectiiying unit which is electrically connected as illustrated to provide a constant flow of rectified electrical current to the Wheatstone bridge. Pilot lamps H2 are ordinarily incorporated in the electricalA circuit `to indicate that the vWheatstone bridge circuit is properly operating. These pilot lights are usually mounted on the panel 20 behind the window I6 so as to be visible to the operator.

An important part of this invention is the provision of a 'blinker or iiasher mechanism I I6 in the electric circuit extending to the Wheatstonel bridge. The flasher mechanism comprises any suitable means adapted to supply a ilow of electric current to the Wheatstone bridge only for a periodically repeated fractional part of the operating time of the apparatus, as, for example, for a-period of from about five to about ten seconds out of every minute. Since lflasher mecha-4 nism of this general character is well known, I will) not 4describe it in detail in conjunction with this embodiment of my invention. Suffice it to say that when'the flasher mechanism is employed in the circuit the filaments of the detector unit 56 and the compensator 66 are burned only a relatively small percentage of their actual operating time so that the life, of these`units is materially prolonged. This featurel is of utmost practical importance ywhen it is realized that it has character and in thev combination described I` have materially increased the life of the'essential feature of the gas alarm apparatus and have One end of the arm |32 is formed with an upthereby adapted it for use in residences, small hotels and businesses where the expense of constant filament replacement and servicing attention has heretofore rendered its use unsatisfactory.

Another important part of this invention'is the provision of a switch |20 in the case |0 adjacent the cover |2 which switch controls the flow of electric current to the interior of the case and which opens the line so that no current can flow to the interior of the case when the cover is moved away from the case more than about .003" which is the extent of an explosion-retaining gap. 'I'he switch |20 is of the micro-operating type, i. e., adapted to be opened or closed by very small movements and is normally held closed by the engagement of the switch-operating plunger |22 with a lug |24 formed on the cover of the case. Thus all danger of explosions due to electric sparking in the case is removed by providing an explosion-proof case having a removable cover which upon removal opens. a microswitch controlling the ow of all electric current to the interior of the case. While for simplicity no relay has been shown, it may be found advisable in practice to have the microswitch |20 operate a relay to control all flow of electric current to the case I0. I i

The galvanometer relay or relays incorporated inthe apparatus are of the reset type. That is, it or they .must be reset after the associated switch is closed because the switch stays closed until the galvanorneter relay is reset. I

. may `employ either hand or automatic means for resetting, and in the form of the invention illustrated both types of resetting mechanism have been indicated. Specifically, as illustrated in Fig. 1 and Fig. 4, each galvanometer relay includesa resetting shaft |30 which carries an arm |32.

standing flange |34. With the arm |32 in the dotted position illustrated the galvanometer Vrelay is in a position where the associated switch is closed. When the arm 32 is in the full-line position,the galvanometer relay is in its reset or normal operating position.

In order to move the arm |32 from the dotted to the full-line position shown in Fig. 4, the hand means I provide include a shaft |38 journaled in gas-tight relation with the cover I2 and carrying an operating knob |40 at its outer end. At the inner end of the shaft |38 is secured a finger |42 which, asv illustrated in Fig. 4, is movable into engagement with the flange |34 of the arm |32 so that twisting of the knob |40 moves the arm '|32 from thedotted tothe full-line position to reset the galvanometer relay. When two galvanometer relays are used as described, the`shaft |38 is spaced an equal distance from both and functions to operate each in turn through duplicate mechanism.' -N

I likewise provide automatic means for periodically resetting the relay, and in the form of the invention illustrated these means may include a motor `|50 which is electrically connected in the circuit as shown in Fig. 2. More specifically, the

motor |50 is started directly or by the relay |01 whenever they galvanometer relay has been caused to make contact by an abnormal gas concentration. Thus the automatic vresetting motor |50 operates only when the white light |05 is out and either the green light 86 or the red light 95 on. The motor- |50 is connected to the shaft |30 of the galvanometer relay through a reduction gear box |52. The gear box includes a' crank arm |53 periodically movable into engagement with the nger |42 to move it lto turn the arm |32 from the dotted to the full-line or reset position. Ordinarily, the drive from the motor |50 through the reduction gear box |52'resets the galvanometer relay about every one half to two minutes, a1- though it should be understood that this automatic resetting operation can be made at more or less frequent intervals.

'I'he hand reset for the galvanometer relays is employed when the flasher mechanism |B is used since otherwise'the motors 02 or |02 would stop and start repeatedly after once being started because either the switch 80o or 80d would be opened by the automatic resetting and closed unless the gas condition were corrected. I may, however, use time delay relays for the relays 84 and 94 to thereby keep the motors 32 and |02I goingfeven though a flasher |'|6 is employedin conjunction with automatic resetting mechanism.

I have found it advantageous to incorporate 'microswitches |53 and |58a with the resetting mechanism for the galvanometer relays 80, each switch, as electrically illustrated, when closed shunting out the switches 80e and 80d so that in the resetting operation there isno opening spark between the contact points when the relay is reset. This use of a shunting microswitch materially reduces burning and corrosion of the small switches 80C and 80d and greatly increases the life of the galvanometer relay. Another and more important function of this arrangement isr in self-regulating installations to prevent stopping of the regulating motor 92 or |02 and also of the resetting motor |50 when the 'galvanometer relay switch 80e or 80d is opened by the resetting action but the gas concentration is still too improper so that the switch 80e or 80d will be closed again immediately after the resetting is complete.

As shown in Fig. 4, the flange |34 of the resetting mechanism is in the nature of' an arcuate cam and engages with the operating plunger |60 of theV microswitch |58 at the start of the resetting movement of the arm |32 and maintains the switch closed until the resetting movement oi'v the arm is substantially completed, at which time the switch opens. Only one microswitch and galvanometer. relay have been illustrated in Figs. 1 and 4 to simplifythe showing. However, as heretofore described, the finger |42 may act to reset a pair o1' galvanometer relays with associated microswitches.y 'In order to prevent the closing of a microswitch |58 or |58a from shunting the switch 00e or 80d which was not closed by the combustible gas content, each of the relays 34 and 94 may be provided with extra single throw switch contacts |66 and |66a connected in series with the shunting microswitches as shown in Fig. 2 so that even though both galvanometer relays are reset onlyv the one which responded to the gas concentration is shunted during resetting. For example, if switch 80d is closed by galva- -nometer 50h because of too high a gas concenl tration, the resetting motor |50 resets both switches 80e and 80d. However, only relay 04 is energized at the start of the resetting so that- Io carried automatic resetting ,is not employed, is the provision of means for automatically shutting off all l flow of electric current to the electrical Wheat'- stone bridge and pump motor 6 I whenever a galvanometer relay has been actuated to start an alarm, a Ventilating fan, etc.: from the time the galvanometer relay has carried out its function until it is reset there would be no useful purpose accomplished by running of the pump and burning of gas on the detector units.- Therefore, shutting off the current for the periods when the alarm or ventilator is on-which periods may be quite long in the absence of automatic -controlwill effect a considerable saving especially in the life of the detector filaments. In the embodiment of the invention shown in Fig. 2 this feature may be achieved by connecting the junction point 20B lines, instead of tothe junction point 202.l The dotted line.connec,tion just described puts the motor @I and transformer and rectifier IIU in parallel with light maso that they are switched o whenever this light goes out, that is when either relay @Il or relay t4 are actuated.

. In the embodiment of my invention illustrated in Fig. 3, the dual-purpose galvanometer relay (really two galvanometer relays in Figs. 1 and 2) ,im has been replaced by a single-acting galvanometer relay. Likewise the many features of automatic control and relay operation and the like have been eliminated as has the case Iii for the purpose of simplifying the illustration of this @,xnodii'lcation. Because of the similarity between the parts of the embodiment of my invention lshown in Fig. 3 and various devices of the form of the invention illustrated in Figs. 1 and 2 and above described, like parts have been' indicated 5@ by the same numerals but the suffix :c has been added to the parts of Fig. 3.

Referring particularly to Fig. 3, the galvanometer relay 80x is of the single-acting type including a galvanometer 80am and a switch 80cm. A single relay 842: is employed in place of the several relays of the embodiment of the invention first described, and withl the relay electrically` con-v nected with the galvanometer relay in the manner shown in Fig. 3, closing the switch Silica: by the galvanometer 80am' functions to energize bell 83x and also breaks all flow of electric current 'to the electrical Wheatstone bridge, pump motor Six, etc.

In Fig. 3 I have also illustrated a particular 65 form of flasher mechanism indicated as a whole \by the numeral Ilia: and including a bimetallic )strip which is surrounded by a heater coil |12 and which is providedwith an ladiustablebut- -ton |14 normally in contact with a button ns spring arm i'i is a-contact lill)I which engages with a contact |82 mounted on a supporti with a resistance itt being electrically connected with the support I8@ and spring arm |18. With the 75 parts electrically connected as illustrated the.

to the contact 2M 'on relay 94, as shown by dotted by a spring arm |18. Supported on the' and break the electrical connection tothe combined rectifier and transformer Illa: in the manner heretofore generally described.

Heating of the bimetallic strip .|18 by the coil I1 2 causes movement of the strip in the direction shown by the arrow to break contacts |80 and |82. v Breaking of -the contacts causes the current going to the transformer to pass the high resistance |86 and thus to decrease the amount of electrical energy .transmitted to the rectifier and the measuring Wheatstonebridge circuit to a very small amountl4 In the same time, the currem; through the heater oon n2 of the bimetamo strip, which is connected in parallel tothe transformer primary, is also substantially decreased; l the strip cools off'and moves back to the rightI .until contacts |80 and |82 are closed again and the full current through the transformer is reestablished. By this mechanism the laments `of the Wheatstone bridge are energized for say from ve to about ten seconds out of every minute.

.The simplified mechanism shown in Fig. 3 can, of course, be employed with any of the features of the form of my invention 'shown in Figs.' 1 and 2, as, for example, the multiple valve for drawing gas from various sources, hand, of course, the

Vpotentiometer control, the resetting mechanism and any relay-operated motors, warning lights or the like, can be readily included in the electrical and operating combination. The' switch for breaking the ow of electric current to the apparatus inside of the case I0 when the case is opened is, of course, included in the combination. Likewise, in the form of the invention shown in Figs. 1 and 2 the single-acting galvanometer relay may be employed. These and other modications, substitutions and correlations will be apparent dependent upon the particular job to which the apparatus must be adapted and are well within the skill of the ordinary mechanic in view of the teaching herein, and hence will not be described in detail.

Both of the wiring diagram disclosed indicate the use of alternating current.4 It should be unl derstood, however. that I contemplate the use of direct current with little or no change in the wiring diagram with the exception of the use of the transformers.y In addition, when direct cur- Arent is employed I v'preferably place the interrupter element of a D. C. bell in the case I0 since -the sparking'action of the bell is dangerous in an explosive atmosphere. The interrupter element can be connected in series with an alternating current bell which maybe placed outside of the case to provide an audible alarm. Y

It isbelieved the operation of the apparatus will be understood from the foregoing description. The apparatus is adapted for use over long periods with little or no inspection or part replacement. 'Ihe apparatus is substantially light but is fooland explosion-proof. y It can'be adapted to raise an alarm by audible signal means or can likewise be arranged as described to perform any desired compensating action, as, for example, the starting of a Ventilating motor. The apparatusis adapted to be used in mines, factories, hotels, oil refineries, gas plants, garages and the like wherever dangerous conditions of combustible tcontent in gas may possibly arise. Substantially While in accordance with the patent statutes two forms of my invention have been illustrated and described in detail, it should be appreciated that my invention is not limited thereto or thereby, but is defined in the appended claims.

I claimz/ 1. In a self-contained combustible gasalarm and control apparatus, the combination of a vaporproof case, a hermetically sealed ow system in said case for passing gas 'to be tested therethrough, electrical means withln said case for determining by combustion an undesirable amount of combustible material-in said gas, a reset relay disposed within said case and controlledby said electrical means for indicating the presence of anundesirable amount of combustible 2. In a self-contained combustible gas alarm and control apparatus, the combination of a vapor-prooi case, an electric Wheatstone bridge disposed within said case including a pair of electric filaments, means disposed within said case controllable `i'rom the outside thereof for balancing'said bridge, hermetically sealed means disposed within said casefor conducting a gas sample around at least vone of said filaments to burn combustible material in said gas and thereby heat the lament and unbalance said bridge, a reset galvanometer relay disposed within said case for operation upon unbalancing of said bridge, means associated with said relay within said case and operable from the outside thereof for reset- 'ting the relay and means operatively connected tosaid relay for indicating an undesirable amount of combustible material in the gas, said elements cooperating to provide indication of the presence of an undesired amount of combustible material present in the gas and to avoid explosion interiorly and extuiorly of said case upon their actuation and operation.

Moens G. JAcoBsoN. *5 

